Effect of counterions on the conformation of hyaluronic acid

Abstract

To study the effect of metal ions on the conformation of hyaluronic acid, circular dichroism (CD) and optical rotatory dispersion (ORD), along with viscosity measurements of the Na, Li, Ca, and Mg salts of the polymer, were carried out. With divalent cations, the results show a decrease in CD minima at 210 nm and an increase in ORD troughs at 220 nm, as compared to monovalent ions. To account for this behavior, the ORD in the visible range corresponding to the observed CD bands was directly calculated from the Moscowitz equation using Kronig-Kramer's transform. The background rotation was found to be more levorotatory in bivalent than in monovalent cations. The ORD spectra of various metal hyaluronates differ significantly from each other in the far ultraviolet region, especially at lower pH values. The values of intrinsic viscosities of these hyaluronates, on the other hand, are almost the same in the pH range of 1–3. These results indicate a local conformation variation rather than any appreciable change in the chain conformation of the molecule in the presence of different counterions.